1) transfer force
传送力,传递力
2) pressure transmission
压力传递
1.
Evaluating the hole stabilizing performance of silicate-based drilling fluid with pressure transmission test;
利用压力传递实验技术评价硅酸盐钻井液井壁稳定性能
2.
The formulas of calculating extraordinary low permeability and semipermeable membrane efficiency of shales through pressure transmission technique were deduced.
为进一步深入井壁稳定机理研究,利用压力传递原理推导了泥页岩极低渗透率计算公式,并给出了半透膜效率的计算公式,研制了泥页岩水化力学耦合模拟实验装置(SHM仪),建立了压力传递实验新方法。
3.
On the basis of analyzing the principle of shale membrane efficiency testing, formulae are derived for calculating the membrane efficiency by using pressure transmission technique.
在对泥页岩膜效率测试原理分析的基础上,推导了通过压力传递技术测定泥页岩膜效率的计算公式,并研制了泥页岩膜效率测试装置。
3) stress transmission
应力传递
1.
Bolt support, a kind of normal-position reinforcement technology, fulfils such functions as framework, sharing burden, stress transmission and diffusion, which make it possible to combine the bolts and soil into compound soil body and to increase the cementation power and intensity of the soil body.
锚杆支护技术是一种原位加筋技术,具有骨架作用、分担作用、应力传递与扩散作用等效应,正是通过这些作用使得锚杆和土体形成复合土体,提高了土体的粘聚力,从而提高了土体的强度。
2.
In this paper,the principle of gravitational stress transmission in blocky rockmass is researched.
研究了属于块裂介质的块体结构岩体中自重应力传递所遵循的法则。
3.
By qualitative mechanics analysis,model tests,dynamic loading tests,and numerical calculation and analysis,it is showed that the stress transmission in stratum is closely related to the relative stiffness of the medium,and a new concept棗the concept of stress transmission is proposed.
通过定性的力学分析、原理性的模型试验、工程动载试验以及数值计算分析4方面的阐述,说明在地层介质中应力的传递与介质的相对刚度密切相关;提出“应力传递概念”的新思想;在防护工程、地下工程建设中,若能有效地运用应力传递概念的思想,就可以大幅度提高工程的承载能力。
4) stress transfer
应力传递
1.
Study on stress transfer between soil nail and surrounding soil;
土钉与土体间的应力传递研究
2.
Interfacial stress transfer behavior of single-fiber composite under the effect of mechanical and thermal loading;
力、热载荷作用下纤维在复合材料中的界面应力传递行为
3.
Mechanical propertys of fiber composites largely depend on stress transfer of fiber and matrix.
纤维复合材料的力学特性很大程度上依赖于纤维和基体的应力传递。
5) internal force transmission
内力传递
1.
Effects on internal force transmission and reinforcement roles of structure and shape of geogrid;
土工格网结构形状对内力传递及加筋作用的影响
2.
For the great importance of constitution and performance of beam joints of concrete filled tube col- umns, a nonlinear finite element analysis has been made using ANSYS for single beam joints to study the stress distribution and internal force transmission in the joints under vertical symmetrical loads.
利用“ANSYS”有限元分析软件,对钢管混凝土柱与现浇钢筋混凝土梁的刚性节点进行了空间非线性有限元分析,分析了垂直对称荷载作用下该节点内的应力分布情况和内力传递机理,根据分析结果提出了该类型节点设计的建议和参考。
补充资料:锅炉、压力容器、压力管道及特种设备定期检验
锅炉、压力容器、压力管道及特种设备定期检验
periodic inspection of boilers, pressure vessels, pressure piping and special equipment
guolu YOli侧飞扣1 YOli gLJal对印ji tez陌叩劝以拍1 dingqi】,on四n锅炉、压力容器、压力管道及特种设备定期检验(peri诫c inspectionof城le。,p~切reves-Sels,p~二piPing ands衅过闪uiplr屺nt)为保证设备的安全使用,规定设备必须按一定周期进行法定的、强制性的检验。定期检验由政府设立的检验所、使用单位或行业检验站进行。检验单位及检验人员必须具有与所检设备相适应的资格。设备使用单位应该建立定期检验制度,做好检验计划,按时向检验单位提出申请。检验单位应该保证及时进行检验,检验按有关检验规则进行。检验时,设备使用单位应做好配合工作,提供必要的运行资料。检验完毕,检验单位要出具检验报告,对设备能否使用,要作出明确结论。如设备有缺陷,要提出是否修理、监护使用和报废的处理意见。锅炉压力容器安全监察机构根据检验机构的报告,发使用许可证书。有缺陷的,责令使用单位修理,修理后检验仍不符合安全要求的,则通知报废。使用单位逾期不进行定期检验,锅炉压力容器安全监察机构有权停止其设备运行。(陈亦惠)
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参考词条